EC:2.7.7.6 - FACTA Search

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Query: EC:2.7.7.6 (RNA polymerase)
34,946 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The three major RNA classes from zinc-sufficient [(+Zn)] and zinc-deficient [(=Zn)] Euglena gracilis have been separated by affinity chromatography on oligo(dT)- and N-[N'-[m-(dihydroxyboryl)phenyl]succinamoyl]aminoethyl (DBAE)-celluloses. The total RNA content and the ribosomal and transfer RNA fractions are the same in (+Zn) and (=Zn) cells. IN (-Zn) cells, the messenger RNA fraction increases, and its altered base composition reveals additional bases and a 2-fold increase in the (G+C)/(A+U) ratio. Since the intracellular content of manganese increases in (-Zn) cells, we have examined its role in determining these changes in RNA composition. An increase in the Mn2+ content from 1 to 10 mM in assays with RNA polymerases I and II from (+Zn) cells and those with the single RNA polymerase from (-Zn) cells decreases the ratio of UMP to CMP incorporated from 1.7 to 1.0, 2.1 to 0.8 and 3.5 to 0.4, respectively. Thus, Mn2+ concentration can significantly alter the products of the enzymatic action of RNA polymerases from both (+Zn) and (-Zn) E. gracilis cells.
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PMID:RNA metabolism, manganese, and RNA polymerases of zinc-sufficient and zinc-deficient Euglena gracilis. 10 Jul 82

The coenzyme A-glutathione mixed disulfide (CoASSG), when complexed with iron, is capable of inhibiting the RNA polymerase of Escherichia coli. A modified procedure involving a short time of exposure to high salt allowed the reliable preparation of CoASSG-Fe which was active in inhibiting RNA polymerase. The CoASSG-Fe complex acted as a noncompetitive inhibitor for the incorporation of all four nucleoside triphosphates but had a greater effect on GMP and CMP incorporation than AMP and UMP incorporation. Neither temperature nor ionic-strength changes affected CoASSG-Fe inhibition, and the use of rifampicin showed that CoASSG-Fe did not inhibit either the initiation or elongation processes of the polymerase. CoASSG-Fe was a more effective inhibitor at low DNA-template concentrations and it was more effective in inhibiting the incorporation of CMP and GMP on simple dG-dC containing templates and the asymmetric polymer poly d(T-C) . poly d(G-A). The inhibition of transcription of poly d(I-C) was less effective than the inhibition of transcription of poly d(G-C). Equilibrium dialysis in microdialysis cells showed that CoASSG-Fe could associate with DNA in the absence of RNA polymerase.
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PMID:Partial characterization of the mode of inhibition of Escherichia coli RNA polymerase by the mixed disulfide, CoASSG. 37 69

The gene coding for CTP:CMP-3-deoxy-D-mannooctulosonate cytidylyltransferase (CMP-KDO synthetase), kds B, was previously cloned on a 9-kilobase Pst insert of Escherichia coli DNA into pBR 322 (Goldman, R. C., and Kohlbrenner, W. E. (1985) J. Bacteriol. 163, 256-261). Using a transposon mutagenesis approach we have now located kds B on this insert, which facilitated the isolation and sequencing of a 1.3-kilobase segment of DNA containing kds B and putative RNA polymerase and ribosome binding sites. The primary structure of CMP-KDO synthetase predicted by this nucleotide sequence was verified by amino acid composition and sequence analysis of purified CMP-KDO synthetase and cleavage fragments. Our results show that kds B consists of a 744-base open reading frame coding for a 248-amino acid peptide. The molecular weight of CMP-KDO synthetase calculated from the translated sequence is 27,486, taking into account the loss of the N-terminal methionine. These data define the transcriptional unit of kds B and its translation product in molecular terms, information prerequisite to our understanding of both the mechanism of CMP-KDO formation and the regulation of the KDO metabolic pathway in Gram-negative bacteria.
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PMID:Primary structure of CTP:CMP-3-deoxy-D-manno-octulosonate cytidylyltransferase (CMP-KDO synthetase) from Escherichia coli. 302 27

Cytotoxicity of arabinofuranosylcytosine (ara-C) has been related in vitro to the inhibition of the DNA polymerase activities by arabinosylcytosine triphosphate (ara-CTP) and the incorporation of ara-C into the DNA where, acting as a chain terminator, it slows the chain elongation. Induced in vitro cellular resistance to ara-C was shown to be secondary to altered deoxycytidine (dCyd) kinase activity, dCyd deaminase activity, or deoxynucleotides triphosphates (dNTP) pools. Recent studies reported no differences of ara-C metabolism in cells obtained from leukemic patients at diagnosis and at relapse after ara-C therapy, suggesting that unknown cellular biochemical determinants may be involved in acquisition of ara-C resistance. Using dialysed crude extracts of leukemic cells obtained from patients at diagnosis, we observed variable inhibition of their DNA polymerase activities by arabinosylcytosine monophosphate (ara-CMP) at 2 mmol/L (0% to 50% inhibition). In similar conditions, ara-CMP reduced the polymerase activities of human thymus extract by 35% and 55% in extract of HL-60 cells (cultured human promyelocytic cells). The ara-CMP factor responsible for inhibition of DNA polymerase activity was nondialysable, heat labile, proteinase K sensitive, and has an estimated molecular mass of 30 kilodalton by gel filtration. After partial purification, this protein had no DNA polymerase RNA polymerase activities. In presence of the regulator and ara-CMP at 2 mmol/L, we observed no inhibition of the HL-60 3'----5' and 5'----3' exonucleases activities, suggesting the regulator interaction being mainly with the DNA polymerases in presence of ara-CMP. The relevance of the presence or absence of this protein regarding the cell sensitivity to ara-C is under investigation.
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PMID:Inhibition of DNA polymerase-alpha by ara-CMP in the presence of a regulatory protein extracted from human promyelocytic leukemic cells (HL-60). 347 78

1. s-RNA nucleotidyltransferase incorporated CMP into phosphodiesterase-treated s-RNA more rapidly in the presence of Mg(2+) (10mm) than in the presence of Mn(2+) (2mm). UMP was incorporated more rapidly in the presence of Mn(2+), and at high ionic strength the incorporation of CMP was also more rapid in the presence of Mn(2+). 2. The capacity of phosphodiesterase-treated s-RNA for CMP, UMP and AMP was increased in the presence of Mn(2+). Terminal sequences of more than one UMP or AMP residue were synthesized, but these atypical reactions were inhibited when CTP was added. CMP was incorporated rapidly to form -pCpC terminal sequences and then more slowly as longer chains were formed, but very little CMP was incorporated into s-RNA-pCpCpA. 3. CMP was incorporated into phosphodiesterase-treated 5s RNA and ribosomal RNA to form short chains of polyC attached to the primer RNA. This reaction was inhibited by the presence of s-RNA. 4. A small Mn(2+)-dependent incorporation of CMP was also primed by poly(A).(U) and poly(C).(I).
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PMID:Altered specificity of transfer-ribonucleic acid nucleotidyltransferase in the presence of manganese. 429 75

1. The interaction of aflatoxin B(1) with different polynucleotides was studied spectrophotometrically. Equations were derived that enable the degree of binding to be determined without first determining the extinction coefficient of the bound form. 2. The interaction with calf thymus DNA obeys first-order relationships with an association constant of 0.40mm(-1), but there is some evidence for a secondary binding process from results obtained at 390nm. 3. The spectral shifts decreased in the order polyadenylic acid+polyuridylic acid>DNA>polyadenylic acid>polyadenylic acid+polyinosinic acid. Polycytidylic acid, polyuridylic acid, polyinosinic acid (both single- and triple-stranded), AMP, CMP, GMP and UMP did not interact with aflatoxin. It was concluded that there is a requirement for the amino group of adenine (or possibly guanine) for binding of aflatoxin to polynucleotides to occur. 4. Binding is reversed by increasing ionic strength, and by Mn(2+) and Mg(2+) in the concentration range studied (0-5mm). The effect of the Mn(2+) or Mg(2+) was far greater than would be expected on the basis of their ionic strength. With both the bivalent cations and sodium chloride the reversal is greatest with double-stranded polynucleotides. 5. Inhibition in vitro of the DNA-dependent RNA polymerase of Escherichia coli by aflatoxin B(1) was detected only in the absence of Mg(2+) and at concentrations of Mn(2+) below the optimum for RNA synthesis in vitro. 6. The degree of inhibition (maximally 30%) was dependent on the concentration of Mn(2+) and decreased during incubation.
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PMID:The interaction of aflatoxin B1 with polynucleotides and its effect on ribonucleic acid polymerase. 489 17

The rate of formation of dinucleoside tetraphosphate, pppApU, from ATP and UTP by RNA polymerase on the A1 promoter of the mutant D111 of bacteriophage T7 is distinctly and specifically reduced not only by the third template-directed nucleotide, CTP, but also by CMP. The inhibitory effect of CMP is not changed when the enzyme contains prebound rifampicin. The synthesis of pppApU is also strongly reduced after preincubation of the enzyme with RNA. This inhibitory effect of RNA is, however, distinctly diminished by rifampicin bound to the enzyme prior to the addition of RNA. On the other hand RNA can suppress the specific binding of the antibiotic to the RNA polymerase subassembly alpha 2 beta.
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PMID:Competition of rifampicin with binding of substrate and RNA to RNA polymerase. 617 35

By use of poly(dA-dT) as template and Escherichia coli RNA polymerase, several metal ions were tested for their effect on the efficiency of transcription and on the misincorporation of CMP into the poly(rA-rU) product. In the presence of 10 mM MgCl2, Mn2+ has a stimulatory effect on the transcription, Co2+ has very little effect on the reaction, Cu2+ and Zn2+ are strongly inhibitory, and Cd2+ and Ni2+ are less inhibitory. The background misincorporation of CMP in the presence of MgCl2 is about 1 nucleotide per 2000 correct nucleotides incorporated and is independent of Mg2+ concentration. Zn2+, Ca2+, Sr2+, Li+, Na+, and K+--all nonmutagenic and noncarcinogenic--do not increase misincorporation. Mn2+ causes a concentration-dependent threefold increase in the misincorporation that can be slightly reversed at higher MgCl2 concentrations. Cd2+ causes a dramatic increase in the misincorporation with increasing CdCl2 concentration that can be substantially overcome by higher concentrations of Mg2+. Cu2+ also increases the misincorporation, Ni2+ slightly increases it, and Co2+ does not increase it at all. Several control experiments indicate that the misincorporation of CMP is dependent on the template-directed synthesis of poly(rA-rU). Nearest-neighbor analysis indicates that CMP is incorporated in place of UMP into the poly(rA-rU) product. The increase in misincorporation appears to be related both to the "hard-soft" character of the metal ions and to their carcinogenic potential.
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PMID:Effect of several metal ions on misincorporation during transcription. 702 4

The heterogeneity of cell size of E. coli WU-36-10-11-12 and its four RNA-polymerase (rif-r) mutants with pleiotropic effect -- rpoB401, rpoB402, rpoB403 and rpoB409 was investigated for the purposeful choice of E. coli mutant with an altered fidelity of transcription. The stability of the phenotype of E. coli strains was shown to depend on the structural state of RNA polymerase. In vitro RNA-polymerase of the morphologically most unstable mutant rpoB402 incorporates non-complementary GMP or CMP on the poly [d(AT).d(AT)] template more frequently than the enzyme from the wild-type strain. The data obtained suggest that the beta-subunit of RNA-polymerase determines the fidelity of transcription and the selection of complementary nucleotides.
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PMID:[Role of RNA polymerase in ensuring fidelity in copying the template during transcription in E. coli]. 702 23

We have examined the interaction between NusA and the nascent RNA in Escherichia coli transcription complexes on four different templates. Photocrosslinking CTP and UTP analogs were incorporated internally and at the 3' end of the RNA. Identical templates with and without boxA sequences were compared. We found that NusA did not contact the ten nucleotides nearest to the 3' end of the RNA in complexes containing RNA up to 20 nucleotides long. Longer RNA did crosslink to NusA with all four templates examined, however. We reported that RNA 80 nucleotides long from the bacteriophage T7 A1 promoter substituted in two RNA stem-loops with photocrosslinking UMP analogs did not crosslink to NusA, even though interaction between NusA and the transcription complex were demonstrated. Here, we report that when this same RNA is substituted at CMP residues, it does crosslink to NusA. Templates containing the E. coli ribosomal RNA promoter rrnG P2, with and without a boxA sequence downstream, were compared. Long RNAs from both crosslinked to NusA, and thus boxA RNA sequences are not required for interaction with NusA. NusA did not interact with the free RNA containing boxA once released from the transcription complex, nor did it interact with RNA in a binary complex containing only RNA polymerase and RNA, without the DNA template.
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PMID:NusA contacts nascent RNA in Escherichia coli transcription complexes. 753 48

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